KR100546725B1 - Diesel engine - Google Patents

Abstract

The fuel supply system has a circulation device comprising a circulation branch 5a and a return branch 5b, the circulation device having connections 6a, for injection devices 3, 4 to be arranged. 6b) and has a feed inlet 12 which is connected to an outlet of a homogenizer 13 capable of producing an emulsion of fuel and water, the homogenizing device having blocking devices 24 and 23. In a diesel engine having a fuel supply system disposed in the injectors 3, 4, provided with inlets 15, 17 of fuel and water connected to the provided supply pipes 16, 14, the circulation device 5 is provided. , 7) is provided with a measuring device 27 for grasping the emulsion mixture of fuel and water, the measuring device forming a measuring member of the control device 26, by the control device at least of the homogenizing device 13 Shut-off devices 23, 24, 22 connected in front of one inlet 15, 17 are the circulation devices 5, 7 Is automatically monitored certainly achieved by thus can be opened and closed through the fuel and water emulsion mixture that it is possible to prevent the risk of the operation and safety.

Description

Diesel engine {DIESEL ENGINE}

The present invention relates to a diesel engine having a fuel supply system installed in an injector, wherein the fuel supply system has a circulation device including a forward branch pipe and a return branch pipe, and the circulation device is connected to a corresponding injector. And a feed inlet, the feed inlet being connected to an outlet of a homogenizer, whereby an emulsion of fuel and water can be produced by the homogenizer, the inlet of fuel and water An additional part is provided, and the inlet part is connected to a supply pipe having a blocking device.

The use of fuel and water emulsions makes it easy to maintain stringent NO _x limits even when heavy oil is used as fuel. However, water mixed with the fuel may cause driving problems. Since the power that can be obtained is reduced by increasing the amount of water contained in the emulsion, for example, the engine may become overloaded when the engine is restarted after the engine is accelerated or stopped. If it has been stationary for a relatively long time, the emulsion may be re-decomposed, the decomposed water may have a significantly increased viscosity, and the viscosity may interfere with the corresponding spraying process.

It is an object of the present invention, as described herein, to minimize, as far as possible, the risks caused by water mixed in fuels by means of simple and inexpensive means for diesel engines of the type mentioned above.

An object of the present invention is to arrange a measuring device for grasping an emulsion composition of fuel and water passing through a circulating device in a circulating device, wherein the measuring device forms a measuring member of the control device. The controller may be opened and closed in accordance with the emulsion mixture of fuel and water passing through the circulator by the controller to at least one supply pipe leading to the homogenizer by the controller.

The above measures preferably lead to automatic monitoring which can reduce the aforementioned risks.

Preferred embodiments of the above measures and further structures suitable for the purposes of the present invention are set forth in the following claims. It is thus advantageously possible to form a rehomogenizing pipe branching out of the circulator and joining into the fuel inlet of the homogenizer. The re-homogenization conduit allows the emulsion of fuel and water refluxing the circulator to be redirected, in whole or in part, through the homogenizer, and the re-homogenization conduit is arranged with a shutoff device which can be operated by the control device. It is. These measures preferably allow at least a portion of the emulsion of fuel and water to pass through the homogenizer several times, so that the homogeneity and safety of the emulsion can be continuously improved.

Further, preferably, the blocking device, in which the control device is arranged in the re-homogenization conduit, can be programmed to be at least open during the interruption of the injection, while the water content of the medium passing through the circulation device is transmitted by the measuring device. Therefore, decomposition of the circulating emulsion, which is circulated only in the circulation system, for example when the machine is stopped is automatically prevented.

To be suitable for the purposes of the present invention, the re-homogenization conduit diverges from the retrograde branch of the circulation conduit so that a short circuit is avoided.

Another measure suitable for the purpose of the present invention is that in the activated re-homogenization conduit, the water supply line for at least the homogenization device is closed and the fuel supply line is only open for adjusting the leakage loss amount. Therefore, no water is newly mixed into the emulsion during the simple circulation operation, and the resistance of the emulsion is likewise improved.

In another preferred embodiment of the above measures, the control device is operated in a normal operation, that is, during the injection process, and the re-homogenization conduit is closed, and the shutoff devices disposed in the water and fuel supply pipes are operated so that a predetermined It may also have a program configured to maintain the water content.

The blocking device disposed in the re-homogenization conduit suitably for the purpose of the present invention may be formed as a three way valve arranged at a branch point where the re-homogenization conduit diverges from the circulation conduit. This makes the arrangement simple and compact, and the direct connection between the re-homogenization conduit and the return branch and the circulation branch of the circulation tube is selectively opened and closed.

Preferably, the control device may include a microprocessor in which programs assigned to various operating states are stored. This simply ensures diversity.

In another preferred arrangement, a central control unit is provided which is connected in front of the control unit and provides respective control states to the control unit. These measures simplify the controller system structure. The control device which can be manipulated by the central control device here simply functions as a connection module arranged in the disconnect devices connected in front of the homogenizer.

For the purposes of the present invention, the central control unit may also have an inlet for a signal line starting from the measuring device. Therefore, it is possible to optimize the operation operation by using a control sequence stored in the storage device of the central control device according to the signal of the measurement device. This applies especially in the case of sequential operation. Therefore, the central control unit may include a plurality of start limiting sequences as appropriate for the purposes of the present invention, the start limiting sequence is assigned to the water content of the fuel and water emulsion in various areas, and to the signal of the measuring device at start-up Thus can be selected.

Other embodiments of the above measures and preferred additional structures suitable for the purposes of the present invention are set forth in other subsequent claims, which may be understood in detail through the following description of the embodiments with reference to the drawings.

The basic structure and operation of diesel engines, in particular large diesel engines, are known per se in the art and no further explanation is required in this regard. The embodiment of Figure 1 is based on a two cycle large diesel engine. An injection device composed of an injection pump 3 and an injection nozzle 4 is disposed in the cylinder 2 of the engine, respectively. The whole injection pump 3 is supplied with fuel through a common fuel supply system.

The fuel supply system includes a circulation tube 3 representing a circulation branch pipe 5a and a backward branch pipe 5b, and as shown by the connecting portions 6a and 6b, all the injectors are circulated in the circulation pipe. And in reverse direction. In the circulation branch pipe 5a, a circulation pump 7, a filter device 8 and a heating device 18 are formed. Here, the circulation pump includes two pumps formed in parallel, and the two pumps can be selectively removed during operation to facilitate maintenance. The retrograde branch pipe 5b extends over an excess pressure reservoir 9 with a safety valve 10 connected to the tank installation.

The circulation pipe 5 is supplied with a fuel that can be supplied to the injector through the supply device 11. Fuel here refers to an emulsion consisting of water and fuel. The addition of water to the fuel facilitates the maintenance of stringent NO _x limits, particularly during heavy oil combustion. A homogenizer 13 is formed which is connected to the feed inlet 12 of the circulation pipe 5 via an outlet for producing an emulsion of fuel and water. The homogenizer is formed as a mixer for mixing fuel and water. Thus, the homogenizing device 13 has a water inlet 15 connected to the water supply pipe 14 and a fuel inlet 17 connected to the fuel supply pipe 16. The fuel supply pipe 16 is disposed with a supply pump facility 19 having two supply pumps that can be selectively removed during operation. The starting air store of the supply pump device 19 may be selectively connected with the heavy oil tank 20a or the diesel oil tank 20b of the tank facility according to what kind of fuel is used.

The re-homogenization conduit 21 branches from the region of the backing branch pipe 5b located below the flow direction of the excess pressure reservoir 9 to the fuel inlet 17 of the homogenizer 13. The branch point is arranged with a three-way valve 22 that can selectively open and close the direct connection between the re-homogenization conduit 21 or the return branch 5b and the forward branch 5a. The re-homogenization conduit 21 allows the emulsion circulating in the circulation tube 5 to penetrate the homogenizer 13 in whole or in part several times, thereby improving the homogeneity and stability of the emulsion. Of course, a two-way valve may be formed instead of the three-way valve 22. The supply pipes 14 and 16 may be blocked in whole or in part by the shutoff devices 23 and 24 formed as both valves, respectively. In this embodiment, the homogenizer 13 is provided with a self-control cirle 25 representing an additional intrinsic shutoff valve in the water supply pipe 14.

The shutoff device formed by the three-way valve 22 and disposed in the re-homogenization conduit 21 and the shutoff device 24 arranged in the water supply pipe 14 are corresponding shutoff devices from the control device 26. As can be seen by signal lines 22a, 23a, 24a leading to the control, it can be actuated by controller 26. The above-mentioned blocking devices are operated in accordance with the signal of the measuring device 27 to determine the water content of the emulsion present in the circulation pipe 5. Therefore, the measuring device 27 acts as a measuring member of the control device 26, as indicated by the signal line 28 from the control device 27 to the measured value input part of the control device 26. The control device 26 is formed as a microcomputer suitable for the purpose of the present invention, and the microcomputer includes a memory device that can be programmed, in which the memory device can be operated in various operating states of the diesel engine 1. The various programs assigned to them are stored.

The program formed for the normal operation in which fuel injection proceeds, wherein the three-way valve 22 blocks the re-homogenization conduit 21, opens the direct passage to the circulating branch pipe 5a, and the water supply pipe 14 The blocking device 23 disposed in the c) and the blocking device 24 disposed in the fuel supply pipe 16 may be operated to maintain a predetermined water content of the emulsion supplied into the circulation pipe 5. The predetermined water content represents a reference value, and the reference value and the value delivered by the measuring device 27 are compared to form a standard tolerance, and the shutoff devices 23, 24) is readjusted. The measuring device 27 is located in the region of the circumferential branch pipe 5a adjacent to the engaging portion of the feed inlet 12, as appropriate for the purposes of the present invention.

In normal operation, the re-homogenization conduit 21 remains at least partially open so that at least a portion of the flow rate flowing back through the retrograde branch 5b is bypassed through the homogenizer 13 to replace the injection volume. The fresh emulsion is fed into the circulation conduit 5 through the supply inlet 12. Thus, the emulsion supplied to the circulation branch 5a always exhibits very good homogeneity. In order to empty the backing branch pipe 5b, the backing branch pipe may be connected to the diesel tank 19 through the drain pipe 29, and the valve arrangement 30 formed by one three-way valve or a plurality of two-way valves at the branch point. Can be formed.

When the machine stops, that is, when the injection is stopped, the emulsion contained in the circulation pipe 5 is maintained by the circulation pump facility 7 to maintain the circulation movement. In order to prevent the decomposition of the emulsion and consequently the condensation of water due to this, the emulsion backing in the retrograde branching tube 5b is at least partially, preferably all the time being redirected by the homogenizing device 13 each time. Each time the switch is homogenized again. Since the program of the control device 26 formed for this case is formed, the three-way valve 22 is the re-homogenization conduit 21 while the measuring device 27 delivers the water content of the medium passing through the circulation pipe. It will maintain the position to open. Therefore, since the blocking device 23 disposed in the water supply pipe 14 is closed in accordance with the present invention, water cannot be newly distributed. Loss is adjusted by fresh fuel. Therefore, the valve 24 disposed in the fuel supply pipe 16 is opened as necessary.

Each operating state can be presented by hand to the control device 26. To this end, the control device 26 may be equipped with a suitable interface. In this embodiment, each operation state is automatically performed by the central control unit 31 disposed in the diesel engine, as indicated by the signal line 32 from the central control unit 31 to the control unit 26. Presented to the control device 26. Thus, the control device 26 functions as a connection module arranged in the blocking devices 22, 23, 24. The connection module is subsequently arranged in the central control unit 31, the central control unit as shown by the signal line 33, other control devices in addition to the control unit 26 and the process of the diesel engine (1) To control.

In general, the central control unit 31 also has a memory device which can be programmed as well. In particular, various start-up limiting sequences may be stored in the storage device, and the start-up limiting sequence may be assigned to various regions of the water content of the emulsion present in the circulation pipe 5, In the case of the acceleration process of 1), it can be selected according to the signal of the measuring device 27. Therefore, in the central control unit 31, as indicated by the signal line 34 from the measuring unit 27 to the central control unit 31, the measured value that can be transmitted by the measuring unit 27 An input unit is provided. Of course, the central control unit 31 is connected to the current of the control unit 26 via the signal line 32. You may also consider obtaining a measurement.

Here, the central control unit 31 is also provided with a display panel 36 capable of presenting the measured values of the measuring device 27 and a remote control device 35 having a keyboard 37 for executing manual command input. ) Is arranged. The remote control device 35 may be arranged in the central control unit of the machine room or on the pontoon bridge. The command input therefrom is transmitted to the control device 26 via the central control device 31. It is also conceivable that the control device 26 has a suitable interface for the direct remote control device.

The present invention makes it possible to minimize as much as possible the risks caused by water mixed into the fuel through simple and inexpensive means in diesel engines.

1 is a diagram of a two cycle large diesel engine having a fuel supply system disposed thereon.

Claims (14)

Shut-off devices having connections 6a, 6b for injectors 3, 4 comprising a forward branch 5a and a backward branch 5b and capable of producing an emulsion of fuel and water ( Circulation with feed inlet 12 connected to outlet of homogenizer 13 with fuel / water inlet 15, 17 connected to feed lines 16, 14 with 24, 23 In a diesel engine having a device and having a fuel supply system disposed in the injectors 3, 4, The circulation device 5, 7 is arranged with a measuring device 27 for measuring the emulsion of fuel and water, the measuring device forms a measuring member of the control device 26, by the control device the homogenizing device ( A shutoff device (23, 24, 22) connected in front of at least one fuel / water inlet (15, 17) of 13 may be opened and closed in accordance with the emulsion of fuel and water passing through the circulation device (5, 7), A re-homogenization conduit 21 is formed which extends into the fuel inlet 17 of the homogenization device 13 branching out of the circulation device 5, 7, by means of the re-homogenization conduit. Emulsions of fuel and water passing through can be redirected in whole or in part through the homogenization device 13, wherein the re-homogenization conduit is arranged with a shut-off device 22 which can be operated by the control device 26. And The control device 26 is programmed so that the shutoff device 22 disposed in the injection-type homogenizing conduit 21 is closed and the shutoff devices 23 arranged in the water and fuel supply pipes 14, 16. Diesel engine, characterized in that it is operated to maintain a predetermined water content. In claim 1, The control device 26 is a shut-off device 22 arranged in the re-homogenization conduit 21 is at least water of the medium through which the measuring device 27 passes through the circulation device 5, 7 when the injection is stopped. A diesel engine characterized in that it is programmed to open while delivering a content. In claim 2, The shut-off device 23 disposed in the water supply pipe 14 for the homogenization device 13 is closed while the shut-off device 22 disposed in the re-homogenization conduit 21 is open. engine. The method of claim 2 or 3, The shutoff device 24 disposed in the fuel supply pipe 16 for the homogenizer 13 is opened while the shutoff device 22 disposed in the re-homogenization conduit 21 is open. engine. The method of claim 2 or 3, The shutoff device (22) disposed in the re-homogenization conduit (21) is characterized in that it is formed as a three-way valve arranged at the branch point of the re-homogenization conduit (21). The method of claim 2 or 3, The re-homogenization conduit (21) is a diesel engine, characterized in that branching from the retrograde branch pipe (5b) of the circulation pipe (5). The method according to any one of claims 1, 2 or 3, The control device (26) includes a microprocessor having a programmable memory device, wherein the microprocessor has a program stored in various operating states. The method according to any one of claims 1, 2 or 3, A central control unit (31) is formed in front of said control unit (26), said central control unit providing a respective operating state to said control unit (26). In claim 8, The central control unit (31) is characterized in that the diesel engine, characterized in that the inlet of the signal line (34) starting from the measuring device (27). In claim 8, The central control unit 31 includes a programmable memory device, in which a plurality of acceleration sequences are present. And / or a start-up sequence is stored, the acceleration sequence and / or start-up sequence is assigned to the region where the water content of the emulsion penetrating the circulation tube 5 is varied and when the start is unavoidable the signal of the measuring device 27 Diesel engine, characterized in that can be selected according to. In claim 8, Preferably, the diesel engine, characterized in that the remote control unit 35 is connected to the control unit 26 through the central control unit 31. In claim 11, Preferably, the diesel engine, characterized in that the display panel (36) arranged in the area of the remote control device (35) is formed. In claim 11, Preferably, the diesel engine is arranged in the area of the remote control device (35) and is provided with a manually operated command input device (37). The method according to any one of claims 1, 2 or 3, The measuring device (27) is characterized in that it is arranged in the region of the circulation pipe (5) adjacent to the engaging portion of the feed inlet (12) into the circulation pipe (5).